Add to ORKG<p>The use of double (w1/o/w2) emulsions, in which part of the oil is replaced by small water droplets, is a promising strategy to reduce oil content in food products. For successful applications, (1) significant levels of fat reduction (i.e. significant amounts of water inside the oil droplets) have to be achieved, (2) double emulsions have to be stable against conditions encountered during processing and storage, and (3) the mouthfeel and sensory perception have to be similar to that of full-fat equivalents. With the present work, significant progress was made in understanding the complex relations between double emulsion design, achievable levels of fat reduction, emulsion stability and sensory perception. We show that through careful em...
There is an increased pressure on food manufacturers to design low calorie and low fat foods to addr...
AbstractThe potential of fat-crystal stabilised W1/O emulsions containing salt to be incorporated in...
Oil-in-water-in-oil (O/W/O) double emulsions are recognized as an advanced design route for oil stru...
The use of double (w1/o/w2) emulsions, in which part of the oil is replaced by small water droplets,...
<p>The use of double emulsions (w<sub>1</sub>/o/w<sub>2</sub>) has been acknowledged as a promising ...
The use of double emulsions (w1/o/w2) has been acknowledged as a promising strategy to reduce oil co...
As overweight and obesity numbers continue to climb around the world, consumers continue to search f...
As overweight and obesity numbers continue to climb around the world, consumers continue to search f...
Double emulsions were used to not only replace 7 and 11% of animal fat in meat products, but also as...
Double emulsions were used to not only replace 7 and 11% of animal fat in meat products, but also as...
Double (w1/o/w2) emulsions are potential fat replacers in foods. Fats are known for their lubricatin...
Systems of the W/O/W type continue to be of growing interest to food scientists and technologists fo...
Systems of the W/O/W type continue to be of growing interest to food scientists and technologists fo...
The oral residence time of low-viscosity emulsions, like milk, is relatively short. Despite this sho...
The oral residence time of low-viscosity emulsions, like milk, is relatively short. Despite this sho...
There is an increased pressure on food manufacturers to design low calorie and low fat foods to addr...
AbstractThe potential of fat-crystal stabilised W1/O emulsions containing salt to be incorporated in...
Oil-in-water-in-oil (O/W/O) double emulsions are recognized as an advanced design route for oil stru...
The use of double (w1/o/w2) emulsions, in which part of the oil is replaced by small water droplets,...
<p>The use of double emulsions (w<sub>1</sub>/o/w<sub>2</sub>) has been acknowledged as a promising ...
The use of double emulsions (w1/o/w2) has been acknowledged as a promising strategy to reduce oil co...
As overweight and obesity numbers continue to climb around the world, consumers continue to search f...
As overweight and obesity numbers continue to climb around the world, consumers continue to search f...
Double emulsions were used to not only replace 7 and 11% of animal fat in meat products, but also as...
Double emulsions were used to not only replace 7 and 11% of animal fat in meat products, but also as...
Double (w1/o/w2) emulsions are potential fat replacers in foods. Fats are known for their lubricatin...
Systems of the W/O/W type continue to be of growing interest to food scientists and technologists fo...
Systems of the W/O/W type continue to be of growing interest to food scientists and technologists fo...
The oral residence time of low-viscosity emulsions, like milk, is relatively short. Despite this sho...
The oral residence time of low-viscosity emulsions, like milk, is relatively short. Despite this sho...
There is an increased pressure on food manufacturers to design low calorie and low fat foods to addr...
AbstractThe potential of fat-crystal stabilised W1/O emulsions containing salt to be incorporated in...
Oil-in-water-in-oil (O/W/O) double emulsions are recognized as an advanced design route for oil stru...